Herring 单簧管
这是我们很久以来一直想要的东西,经过大量开发终于问世了!Herring 单簧管是一个耗时超过两年的项目。José Herring 本人也是一位狂热的 VI 用户,他联系我们,想要创造一些前所未有的东西,而挑战就是创造一种基于样本的 Bb 单簧管,具有广泛的动态表达。我们在技术方面探索了一些全新的领域,并推出了我们最出色的作品之一!通过实现动态变形和呼吸压力响应作为基本性能行为,您可以享受横扫音域的乐趣,而无需任何虚假的样本交叉淡入淡出。
自适应连奏
Herring 单簧管使用我们创新的连奏脚本,可以根据您的演奏调整连奏过渡的速度。结果是超级流畅和灵敏的动作,具有以前从未实现过的广泛细节。
反应性呼吸压力
我们花了很长时间开发它来模拟管乐器中呼吸/风压的效果——动态控制运动根据调整速度不断与音高相互作用。这是一个微妙的事情,有助于使表演听起来更加逼真。
动态变形
没有交叉淡入淡出——没问题!得益于我们的相位对齐样本处理,动态可以在真实速度层样本之间无缝扫描,而不会出现可怕的交叉淡入淡出问题。这是黑暗魔法——我知道!
物理建模颤音
颤音是专门为 Herring 单簧管设计的,模仿真实的颤音源录音。结果是同时控制颤音速度和强度,而不受预录样本的限制。
建模颤音舌
颤音舌是一种管乐器技巧,表演者通过滚动舌头来产生颤音。我们已经模拟了这种行为,因此您可以完全控制这种效果的强度,从轻微的呼噜声到强烈的咆哮声!
模拟多音
使用一系列基于对真实样本的分析和对多音物理的理解的调制器,我们重新创建了这种效果,因此您只需转动旋钮即可无缝地在多个音符之间转换,从而获得狂野的效果。
模拟颤音
作为超敏捷连奏样本的替代,我们方便地提供了自动颤音功能,用于演奏逼真的颤音。您可以触发大调或小调颤音,还可以配置颤音速度,如果您愿意,所有这些都是实时的!
音高不稳定性
此实验性设置允许您通过将每个音符的音高随机化一点,在演奏中引入一些混乱。巧妙地使用它可以增加一层额外的人性化。
真正的连奏样本
我们为 2 种连奏风格录制了八度内的每个音符转换:滑音和舌音。结果是,在连接的音符之间转换时,您会听到真实的演奏。
Herring Clarinet
Here’s something we’ve wanted for a long time, and after much development it’s finally here! Herring Clarinet was a project over two years in the making. José Herring, an avid VI-user himself, reached out to us wanting to create something that had never been done before, and the challenge was set to create a sample-based Bb clarinet with wide dynamic expression. We adventured into some deep new territory in terms of technology, and came out with one of our finest creations! Implementing dynamic morphing and breath pressure response as the fundamental performance behaviors, you can enjoy sweeping through the ranges without any fake crossfading of samples.
Adaptive Legato
Herring Clarinet uses our innovative Legato script, which adjusts the speed of the Legato transition in response to your performance. The result is a super fluid and responsive action with a wide range of detail that has never been achievable before.
Reactive Breath Pressure
Something we spent a long time developing to simulate an effect of breath/wind pressure in wind instruments – Dynamic control movement constantly interacts with pitch depending on adjustment speed. It’s a subtle thing that helps to make performances sound even more realistic.
Dynamics Morphing
No crossfading – no problem! Dynamics can seamlessly sweep between real velocity layer samples without the dreaded crossfading issues, thanks to our phase-alignment sample processing. It’s dark wizardry – I know!
Physically Modelled Vibrato
Vibrato was specifically designed for Herring Clarinet modeled after real vibrato source-recordings. The result is simultaneous control over vibrato speed and intensity without the limitations of pre-recorded samples.
Modeled Flutter Tongue
Flutter tonguing is a wind instrument technique in which the performer rolls their tongue to create a flutter sound. We’ve modeled this behavior so you can have full control over the intensity of this effect, from a light purr to a strong growl!
Modeled Multiphonics
Using a series of modulators based on analysis of real samples and an understanding of the physics of multiphonics, we’ve recreated this effect so you can seamlessly transition to-and-from multiple note tones for wild effects with the turn of a knob.
Simulated Trills
An automatic Trill feature is conveniently included for performing realistic trills as an alternative to the super-agile legato samples. You can trigger Major or Minor trills and configure trill Speed as well, all in real-time if you like!
Pitch Instability
This experimental setting allows you to introduce some chaos in your performance by randomizing each note’s pitch by a small amount. Subtle use of this can add an extra layer of humanization.
True Legato Samples
We recorded every note transition within an octave for 2 Legato styles: Slur and Tongued. The result is that you hear an actual performance when transitioning between connected notes. |
